# vim: set ft=c:

MPI_Attr_delete:
    .desc: Deletes an attribute value associated with a key on a communicator
    .replace: deprecated with MPI_Comm_delete_attr

MPI_Attr_get:
    .desc: Retrieves attribute value by key
    .skip: Fortran
    .replace: deprecated with MPI_Comm_get_attr
    .seealso: MPI_Attr_put, MPI_Keyval_create, MPI_Attr_delete, MPI_Comm_get_attr

MPI_Attr_put:
    .desc: Stores attribute value associated with a key
    .replace: deprecated with MPI_Comm_set_attr
    .seealso: MPI_Attr_get, MPI_Keyval_create, MPI_Attr_delete, MPI_Comm_set_attr

MPI_Keyval_create:
    .desc: Creates a new attribute key
    .replace: deprecated with MPI_Comm_create_keyval
    .seealso: MPI_Keyval_free, MPI_Comm_create_keyval

MPI_Keyval_free:
    .desc: Frees an attribute key for communicators
    .seealso: MPI_Keyval_create, MPI_Comm_free_keyval
    .replace: deprecated with MPI_Comm_free_keyval

MPI_Comm_create_keyval:
    .desc: Create a new attribute key
    .docnotes: AttrErrReturn
    .seealso: MPI_Comm_free_keyval
/*
    Notes:
    Key values are global (available for any and all communicators).

    Default copy and delete functions are available.  These are
    + MPI_COMM_NULL_COPY_FN   - empty copy function
    . MPI_COMM_NULL_DELETE_FN - empty delete function
    - MPI_COMM_DUP_FN         - simple dup function

    There are subtle differences between C and Fortran that require that the
    copy_fn be written in the same language from which 'MPI_Comm_create_keyval'
    is called.
    This should not be a problem for most users; only programmers using both
    Fortran and C in the same program need to be sure that they follow this rule.
*/

MPI_Comm_delete_attr:
    .desc: Deletes an attribute value associated with a key on a communicator
    .seealso: MPI_Comm_set_attr, MPI_Comm_create_keyval
    .extra: ignore_revoked_comm

MPI_Comm_free_keyval:
    .desc: Frees an attribute key for communicators

MPI_Comm_get_attr:
    .desc: Retrieves attribute value by key
    .polymorph: MPIR_Attr_type attr_type=MPIR_ATTR_PTR
    .skip: Fortran
    .extra: ignore_revoked_comm
/*
    Notes:
        Attributes must be extracted from the same language as they were inserted
        in with 'MPI_ATTR_PUT'.  The notes for C and Fortran below explain why.
*/
/*
    Notes for C:
        Even though the 'attribute_val' argument is declared as 'void *', it is
        really the address of a void pointer (i.e., a 'void **').  Using
        a 'void *', however, is more in keeping with C idiom and allows the
        pointer to be passed without additional casts.

    .N Fortran
        The 'attribute_val' in Fortran is a pointer to a Fortran integer, not
        a pointer to a 'void *'.
*/

MPI_Comm_set_attr:
    .desc: Stores attribute value associated with a key
    .seealso: MPI_Comm_create_keyval, MPI_Comm_delete_attr
    .polymorph: MPIR_Attr_type attr_type=MPIR_ATTR_PTR
    .extra: ignore_revoked_comm
/*
    Notes:
    Values of the permanent attributes 'MPI_TAG_UB', 'MPI_HOST', 'MPI_IO',
    'MPI_WTIME_IS_GLOBAL', 'MPI_UNIVERSE_SIZE', 'MPI_LASTUSEDCODE', and
    'MPI_APPNUM' may not be changed.

    The type of the attribute value depends on whether C, C++, or Fortran
    is being used.
    In C and C++, an attribute value is a pointer ('void *'); in Fortran, it is an
    address-sized integer.

    If an attribute is already present, the delete function (specified when the
    corresponding keyval was created) will be called.
*/

MPI_Type_create_keyval:
    .desc: Create an attribute keyval for MPI datatypes
    .docnotes: AttrErrReturn
/*
    Notes:
    Key values are global (available for any and all derived datatypes).

    Default copy and delete functions are available.  These are
    + MPI_TYPE_NULL_COPY_FN   - empty copy function
    . MPI_TYPE_NULL_DELETE_FN - empty delete function
    - MPI_TYPE_DUP_FN         - simple dup function

    There are subtle differences between C and Fortran that require that the
    copy_fn be written in the same language from which 'MPI_Type_create_keyval'
    is called.
    This should not be a problem for most users; only programmers using both
    Fortran and C in the same program need to be sure that they follow this rule.
*/

MPI_Type_delete_attr:
    .desc: Deletes an attribute value associated with a key on a datatype

MPI_Type_free_keyval:
    .desc: Frees an attribute key for datatypes

MPI_Type_get_attr:
    .desc: Retrieves attribute value by key
    .polymorph: MPIR_Attr_type attr_type=MPIR_ATTR_PTR
    .skip: Fortran
/*
    Notes:
        Attributes must be extracted from the same language as they were inserted
        in with 'MPI_ATTR_PUT'.  The notes for C and Fortran below explain why.
*/
/*
    Notes for C:
        Even though the 'attribute_val' argument is declared as 'void *', it is
        really the address of a void pointer (i.e., a 'void **').  Using
        a 'void *', however, is more in keeping with C idiom and allows the
        pointer to be passed without additional casts.

    .N Fortran
        The 'attribute_val' in Fortran is a pointer to a Fortran integer, not
        a pointer to a 'void *'.
*/

MPI_Type_set_attr:
    .desc: Stores attribute value associated with a key
    .polymorph: MPIR_Attr_type attr_type=MPIR_ATTR_PTR
/*
    Notes:

    The type of the attribute value depends on whether C or Fortran is being used.
    In C, an attribute value is a pointer ('void *'); in Fortran, it is an
    address-sized integer.

    If an attribute is already present, the delete function (specified when the
    corresponding keyval was created) will be called.
*/

MPI_Win_create_keyval:
    .desc: Create an attribute keyval for MPI window objects
    .docnotes: AttrErrReturn
/*
    Notes:
    Key values are global (available for any and all communicators).

    Default copy and delete functions are available.  These are
    + MPI_WIN_NULL_COPY_FN   - empty copy function
    . MPI_WIN_NULL_DELETE_FN - empty delete function
    - MPI_WIN_DUP_FN         - simple dup function

    There are subtle differences between C and Fortran that require that the
    copy_fn be written in the same language from which 'MPI_Win_create_keyval'
    is called.
    This should not be a problem for most users; only programmers using both
    Fortran and C in the same program need to be sure that they follow this rule.
*/

MPI_Win_delete_attr:
    .desc: Deletes an attribute value associated with a key on a window

MPI_Win_free_keyval:
    .desc: Frees an attribute key for MPI RMA windows

MPI_Win_get_attr:
    .desc: Get attribute cached on an MPI window object
    .polymorph: MPIR_Attr_type attr_type=MPIR_ATTR_PTR
    .skip: Fortran
/*
    Notes:
    The following attributes are predefined for all MPI Window objects\:

    + MPI_WIN_BASE - window base address.
    . MPI_WIN_SIZE - window size, in bytes.
    - MPI_WIN_DISP_UNIT - displacement unit associated with the window.

    Attributes must be extracted from the same language as they were inserted
    in with 'MPI_ATTR_PUT'.  The notes for C and Fortran below explain why.
*/
/*
    Notes for C:
        Even though the 'attribute_val' argument is declared as 'void *', it is
        really the address of a void pointer (i.e., a 'void **').  Using
        a 'void *', however, is more in keeping with C idiom and allows the
        pointer to be passed without additional casts.

    .N Fortran
        The 'attribute_val' in Fortran is a pointer to a Fortran integer, not
        a pointer to a 'void *'.
*/

MPI_Win_set_attr:
    .desc: Stores attribute value associated with a key
    .polymorph: MPIR_Attr_type attr_type=MPIR_ATTR_PTR
/*
    Notes:

    The type of the attribute value depends on whether C or Fortran is being used.
    In C, an attribute value is a pointer ('void *'); in Fortran, it is an
    address-sized integer.

    If an attribute is already present, the delete function (specified when the
    corresponding keyval was created) will be called.
*/
